/** @addtogroup fmu2
 *
 *  @{
 */
#pragma once
/*
 * Define default global settings for FMI 2.0.
 *
 * This file is part of OpenModelica.
 *
 * Copyright (c) 1998-CurrentYear, Open Source Modelica Consortium (OSMC),
 * c/o Linköpings universitet, Department of Computer and Information Science,
 * SE-58183 Linköping, Sweden.
 *
 * All rights reserved.
 *
 * THIS PROGRAM IS PROVIDED UNDER THE TERMS OF THE BSD NEW LICENSE OR THE
 * GPL VERSION 3 LICENSE OR THE OSMC PUBLIC LICENSE (OSMC-PL) VERSION 1.2.
 * ANY USE, REPRODUCTION OR DISTRIBUTION OF THIS PROGRAM CONSTITUTES
 * RECIPIENT'S ACCEPTANCE OF THE OSMC PUBLIC LICENSE OR THE GPL VERSION 3,
 * ACCORDING TO RECIPIENTS CHOICE.
 *
 * The OpenModelica software and the OSMC (Open Source Modelica Consortium)
 * Public License (OSMC-PL) are obtained from OSMC, either from the above
 * address, from the URLs: http://www.openmodelica.org or
 * http://www.ida.liu.se/projects/OpenModelica, and in the OpenModelica
 * distribution. GNU version 3 is obtained from:
 * http://www.gnu.org/copyleft/gpl.html. The New BSD License is obtained from:
 * http://www.opensource.org/licenses/BSD-3-Clause.
 *
 * This program is distributed WITHOUT ANY WARRANTY; without even the implied
 * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE, EXCEPT AS
 * EXPRESSLY SET FORTH IN THE BY RECIPIENT SELECTED SUBSIDIARY LICENSE
 * CONDITIONS OF OSMC-PL.
 *
 */

#include <Core/SimulationSettings/IGlobalSettings.h>

#ifdef ENABLE_SUNDIALS_STATIC
  #define DEFAULT_NLS "kinsol"
#else
#define DEFAULT_NLS "newton"
#endif

class FMU2GlobalSettings : public IGlobalSettings
{
public:
    virtual  ~FMU2GlobalSettings() {}
    ///< Start time of integration (default: 0.0)
    virtual double          getStartTime() { return 0.0; }
    virtual void            setStartTime(double) {}
    ///< End time of integraiton (default: 1.0)
    virtual double          getEndTime() { return 1.0; }
    virtual void            setEndTime(double) {}
    ///< Output step size (default: 20 ms)
    virtual double          gethOutput() { return 20; }
    virtual void            sethOutput(double) {}
    ///< Write out results (EMIT_NONE)
    virtual EmitResults     getEmitResults() { return EMIT_NONE; }
    virtual void            setEmitResults(EmitResults) {}
    virtual bool            useEndlessSim() { return true; }
    virtual void            useEndlessSim(bool) {}
    ///< Write out statistical simulation infos, e.g. number of steps (at the end of simulation); [false,true]; default: true)
    virtual bool            getInfoOutput() { return false; }
    virtual void            setInfoOutput(bool) {}
    virtual string          getOutputPath() { return "./"; }
    virtual string          getInputPath() { return "./"; }
    virtual LogSettings     getLogSettings() { return LogSettings(LF_FMI2); }
    virtual void            setLogSettings(LogSettings) {}
    virtual OutputPointType getOutputPointType() { return OPT_ALL; };
    virtual void            setOutputPointType(OutputPointType) {};
    virtual void            setOutputPath(string) {}
    virtual void            setInputPath(string) {}
    virtual string          getSelectedSolver() { return "euler"; }
    virtual void            setSelectedSolver(string) {}
    virtual string          getSelectedLinSolver() { return "dgesvSolver"; }
    virtual void            setSelectedLinSolver(string) {}
    virtual string          getSelectedNonLinSolver() { return DEFAULT_NLS; }
    virtual void            setSelectedNonLinSolver(string) {}
    virtual void            load(std::string xml_file) {};
    virtual void            setResultsFileName(string) {}
    virtual string          getResultsFileName() { return ""; }
    virtual void            setRuntimeLibrarypath(string) {}
    virtual string          getRuntimeLibrarypath() { return ""; }
    virtual void            setAlarmTime(unsigned int) {}
    virtual unsigned int    getAlarmTime() { return 0; }
    virtual void setNonLinearSolverContinueOnError(bool) {};
    virtual bool getNonLinearSolverContinueOnError() { return false; };
    virtual void setSolverThreads(int) {};
    virtual int getSolverThreads() { return 1; };
    virtual OutputFormat getOutputFormat() { return EMPTY; };
    virtual void setOutputFormat(OutputFormat) {};
    virtual void setZeroMQPubPort(int) {};
    virtual int getZeroMQPubPort() { return -1; };
    virtual void setZeroMQSubPort(int) {};
    virtual int getZeroMQSubPort() { return -1; };
    void setZeroMQJobiID(string) {};
    string getZeroMQJobiID() { return "empty"; };
    void setZeroMQServerID(string) {};
    string getZeroMQServerID() { return "empty"; };
    void setZeroMQClientID(string) {};
    string getZeroMQClientID() { return "empty"; };
    virtual string getInitfilePath() { return ""; }
    virtual void setInitfilePath(string){ };
};

/** @} */ // end of fmu2
